CN117047321B - Integrative cutting device is used to insulating paper - Google Patents

Abstract

The invention relates to the technical field of insulating paper board processing, in particular to an integrated cutting device for insulating paper, which comprises a frame, a laser cutting device, a feeding device and an auxiliary control device, wherein the frame is provided with a cutting device; the rack is provided with a material distribution assembly, and the material distribution assembly comprises a material guide frame, a guide block and a fan; the material guide frame is arranged on the frame; the guide block is arranged on the frame; the fan is arranged on the material guide frame; the laser cutting device comprises a mounting plate and a laser cutter, wherein the mounting plate is arranged on the frame, and the laser cutter is arranged on the mounting plate; the feeding device comprises a guide roller and a pushing component; the guide roller is rotatably arranged on the frame; the pushing assembly comprises a first rotating shaft, a belt wheel and a first driving belt; the first rotating shaft is rotatably arranged on the frame; the rotary driving assembly is arranged on the frame. The invention realizes the function of cutting the insulating paper and automatically distributing the insulating paper, achieves the effect of reducing the manual participation amount, and solves the problem that the existing cutting device still needs to distribute the insulating paper manually after cutting the insulating paper tape.

Description

Integrative cutting device is used to insulating paper

Technical Field

The invention relates to the technical field of insulating paper board processing, in particular to an integrated cutting device for insulating paper.

Background

The insulating paper is a generic term for electric insulating paper. The insulating material is used as insulating material for various electrical equipment such as cables, coils and the like. When the insulation paper is used, the insulation paper needs to be cut into a specified shape so as to adapt to the use of electrical equipment such as a transformer, the existing insulation paper is usually cut into a fixed length through cutting equipment, then the insulation paper is cut through manual length measurement, and then the insulation paper is cut into a required shape through tools such as scissors, so that the cutting efficiency is low.

For this reason, chinese patent application CN115194852a discloses a cutting device of transformer insulation board, and its structural design is simple, and modern design, and the practicality is strong, for traditional cutting device, need not to push the panel when cutting, makes insulation board carry out fixed clamp, and the cutting size is accurate, can concentrate the collection piece simultaneously, and environmental protection more, convenient to use reduces manpower and materials, greatly improves production machining efficiency and has stronger functionality.

However, the conventional cutting device is not flexible enough to cut the paperboard into a specified shape at one time, and the conventional complicated cutting is usually performed by using a laser cutter, but after the cutting by using the laser wire cutter, the insulating paper with the required shape and the redundant insulating paper around the insulating paper are manually separated, so that the processing period is prolonged.

Disclosure of Invention

To above-mentioned problem, provide an insulating paper with integrative cutting device, solved current cutting device through frame, laser cutting device and material feeding unit and still need the problem of manual work feed divider after cutting insulating paper.

In order to solve the problems in the prior art, the invention provides an integrated cutting device for insulating paper, which comprises a frame, a laser cutting device, a feeding device and an auxiliary control device; the rack is provided with a material distribution assembly, and the material distribution assembly comprises a material guide frame, a guide block and a fan; the material guide frame is arranged on the frame, and a gap for the insulation paper to pass through is formed between the material guide frame and the bottom of the frame; the guide block is arranged on the frame and is connected with the guide frame; the fan is arranged on the guide frame and is positioned above the guide block; the laser cutting device comprises a mounting plate and a laser cutter, wherein the mounting plate is arranged on the frame, and the laser cutter is arranged on the mounting plate; the feeding device comprises a guide roller and a pushing component; the guide roller is rotatably arranged on the frame; the pushing assembly comprises a first rotating shaft, a belt wheel and a first driving belt; the first rotating shaft is provided with two rotating shafts and is rotatably arranged on the frame; the pulleys are arranged in two and are respectively sleeved on the two first rotating shafts; two ends of the first transmission belt are respectively sleeved on the two belt pulleys; the auxiliary control device comprises a rotary driving assembly which is arranged on the frame and used for driving the first rotating shaft to rotate.

Preferably, the laser cutting device further comprises a lifting component and a resetting component; the lifting assembly comprises a fixed frame, a first elastic piece and a telescopic rod; the fixing frame is arranged on the frame; two ends of the first elastic piece are respectively connected with the fixing frame and the mounting plate; the telescopic rod is arranged on the fixed frame, and two ends of the telescopic rod are respectively connected with the fixed frame and the mounting plate; the reset component is arranged on the fixing frame and used for controlling the reset of the mounting plate; the frame is also provided with a cutting control device, and the cutting control device comprises a locking component and a first control component; the locking component is arranged on the fixing frame and used for fixing the mounting plate; the first control component is arranged on the fixing frame and used for controlling the opening and closing of the locking component.

Preferably, the locking assembly comprises a first mounting seat, a second elastic piece and an arc-shaped locking block; the first mounting seat is mounted on the fixing frame; two ends of the second elastic piece are respectively connected with the first mounting seat and the arc-shaped locking block; the arc-shaped locking block is slidably arranged on the first mounting seat and is in transmission fit with the first control assembly; the mounting plate is provided with a locking groove matched with the arc locking block.

Preferably, the first control assembly comprises a connection block, a connection frame and a first linear drive; the connecting block is connected with the arc-shaped locking block, and a chute is formed in the connecting block; the connecting frame is slidably arranged on the fixed plate, a first push rod is arranged at the bottom of the connecting frame, and the first push rod is slidably matched with the chute; the first linear driver is arranged on the fixed plate, and the driving end of the first linear driver is in transmission connection with the connecting frame.

Preferably, the rotary driving assembly comprises a clutch plate, a first rotary driver, a supporting frame, a first guide rod, a limiting block and a third elastic piece; the clutch plate is sleeved on the driving end of the first rotary driver in a sliding way, and the axis of the clutch plate is collinear with the axis of the first rotary shaft; the first rotary driver is arranged on the frame; the support frame is rotationally sleeved on the clutch plate; the first guide rod is arranged on the frame and is in sliding fit with the support frame; the limiting block is arranged at the end part of the first guide rod; two ends of the third elastic piece are respectively connected with the limiting block and the supporting frame; the frame is also provided with a transmission component, and two ends of the transmission component are respectively connected with the connecting frame and the supporting frame in a transmission way.

Preferably, the transmission assembly comprises a connecting rod and a second push rod; the connecting rod is connected with the connecting frame; the second push rod is slidably mounted on the frame and connected with the connecting rod, an inclined plane is arranged at the bottom of the second push rod, and the inclined plane of the second push rod is slidably matched with the supporting frame.

Preferably, the feeding device further comprises a guide assembly, wherein the guide assembly comprises a second rotating shaft, a third rotating shaft, a first rotating gear, a second rotating gear, a transmission gear and a guide wheel; the second rotating shaft and the third rotating shaft are rotatably arranged on the frame; the first rotary gear is sleeved on the first rotating shaft; the second rotary gear and the transmission gear are respectively sleeved on the second rotating shaft and the third rotating shaft; the first rotating gear and the second rotating gear are in transmission connection with the transmission gear; the guide wheel is sleeved on the second rotating shaft.

Preferably, the reset assembly comprises a second mounting seat, a second linear driver, a connecting plate and a fixing plate; the second mounting seat is arranged on the fixed plate; the second linear driver is arranged on the second mounting seat, and the driving end of the second linear driver is in transmission connection with the connecting plate; the fixed plate sets up on the mounting panel, connecting plate and fixed plate sliding fit.

Preferably, the laser cutting device further comprises a first linear driving assembly and a second linear driving assembly; the first linear driving assembly comprises a bracket, a first screw rod, a second rotary driver and a bevel gear; the bracket is slidably arranged on the mounting plate, and the laser cutter is arranged on the bracket; the first screw is rotatably arranged on the bracket and is in threaded connection with the bracket; the second rotary driver is arranged on the bracket; the two bevel gears are respectively sleeved on the driving end of the second rotary driver and the first screw rod and are in transmission connection; the second linear driving assembly is arranged on the mounting plate and used for controlling the bracket to move.

Preferably, the second linear driving assembly comprises a second screw, a third rotary driver, a sleeve, a second transmission belt and a second guide rod; the second screw is rotatably arranged on the mounting plate and is in threaded connection with the bracket; the third rotary driver is arranged on the mounting plate; the sleeve is provided with two sleeves which are respectively sleeved on the driving ends of the second screw rod and the third rotary driver; two ends of the second transmission belt are respectively sleeved on the two sleeves; the second guide rod is arranged on the mounting plate and is in sliding fit with the bracket.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the insulating paper is cut and automatically separated through the frame, the separating component, the laser cutting device and the feeding device, so that the effect of reducing the manual participation is achieved, the cutting efficiency is improved, and the problem that the existing cutting device still needs to separate materials manually after the insulating paper tape is cut is solved.

2. According to the invention, the lifting function of the laser cutter is controlled through the lifting component, the locking component and the first control component, so that the effect of starting the laser cutter when the laser cutter is lowered is achieved, and the opening and closing time errors of the laser cutter are reduced.

3. According to the invention, the function of fixing the mounting plate is realized through the first mounting seat, the second elastic piece, the arc-shaped locking block and the locking groove, so that the effect of automatically fixing the mounting plate when the mounting plate is reset and simultaneously rapidly releasing the fixing of the mounting plate is achieved.

Drawings

Fig. 1 is a perspective view of an integrated cutting device for insulating paper.

Fig. 2 is a perspective view of a material transporting device and an auxiliary control device in an integrated cutting device for insulating paper.

Fig. 3 is a perspective view of a material transporting device in an integrated cutting device for insulating paper.

Fig. 4 is a perspective view showing a laser cutting device in the integrated cutting device for insulation paper when the laser cutting device is lowered.

Fig. 5 is a perspective view of a laser cutting device in an integrated cutting device for insulation paper when lifted.

Fig. 6 is a schematic cross-sectional view of a locking assembly in an integrated cutting device for insulating paper.

Fig. 7 is a perspective view of an auxiliary control device in an integrated cutting device for insulating paper.

Fig. 8 is a perspective view of a laser cutting device in an integrated cutting device for insulating paper.

Fig. 9 is a perspective view of a first linear driving assembly and a second linear driving assembly in an integrated cutting device for insulation paper.

The reference numerals in the figures are: 1-a frame; 11-a material distribution assembly; 111-a material guiding frame; 112-a guide block; 113-a fan; 2-a laser cutting device; 21-a mounting plate; 22-laser cutter; 23-a lifting assembly; 231-a fixing frame; 232-a first elastic member; 233-telescoping rod; 24-resetting the assembly; 241-a second mount; 242-a second linear drive; 243-connecting plates; 244-a fixed plate; 25-a first linear drive assembly; 251-bracket; 252-first screw; 253-a second rotary drive; 254-bevel gear; 26-a second linear drive assembly; 261-a second screw; 262-a third rotary drive; 263-sleeve; 264-a second drive belt; 265-a second guide bar; 3-a feeding device; 31-guiding rollers; 32-pushing components; 321-a first rotating shaft; 322-pulleys; 323-a first drive belt; 33-a guide assembly; 331-a second spindle; 332-a third rotating shaft; 333-a first rotary gear; 334-a second rotary gear; 335-a drive gear; 336-guide wheels; 4-an auxiliary control device; 41-a rotary drive assembly; 411 clutch plate; 412-a first rotary drive; 413-a support; 414-a first guide bar; 415-limiting block; 416-a third elastic member; 42-a transmission assembly; 421-connecting rod; 422-a second pushrod; 5-a cutting control device; 51-a locking assembly; 511-a first mount; 512-a second elastic member; 513-arc locking blocks; 514-locking groove; 52-a first control assembly; 521-connecting blocks; 5211-chute; 522-a connection rack; 5221-first push rod; 523-first linear drive.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1-4: an integrated cutting device for insulating paper comprises a frame 1, a laser cutting device 2, a feeding device 3 and an auxiliary control device 4; the frame 1 is provided with a material distribution assembly 11, and the material distribution assembly 11 comprises a material guide frame 111, a guide block 112 and a fan 113; the material guiding frame 111 is arranged on the frame 1, and a gap for the insulating paper to pass through is formed between the material guiding frame 111 and the bottom of the frame 1; the guide block 112 is mounted on the frame 1 and is connected with the guide frame 111; the blower 113 is mounted on the guide frame 111 above the guide block 112; the laser cutting device 2 comprises a mounting plate 21 and a laser cutter 22, wherein the mounting plate 21 is arranged on the frame 1, and the laser cutter 22 is arranged on the mounting plate 21; the feeding device 3 comprises a guide roller 31 and a pushing component 32; the guide roller 31 is rotatably installed on the frame 1; the pushing assembly 32 comprises a first rotating shaft 321, a belt wheel 322 and a first driving belt 323; the first rotating shaft 321 is provided with two rotating shafts and is rotatably arranged on the frame 1; the pulleys 322 are two and are respectively sleeved on the two first rotating shafts 321; two ends of the first driving belt 323 are respectively sleeved on the two belt pulleys 322; the auxiliary control device 4 comprises a rotary drive assembly 41, the rotary drive assembly 41 being arranged on the frame 1 and being arranged to drive the first rotation shaft 321 in rotation.

According to the invention, the insulating paper is cut and automatically separated through the frame 1, the laser cutting device 2 and the feeding device 3, so that the effect of reducing the manual participation amount is achieved, the cutting efficiency is improved, and the problem that the existing cutting device still needs to manually separate after the insulating paper tape is cut is solved. Blower 113, laser cutter 22 and rotary drive assembly 41 are electrically connected to the controller; the operator passes the insulating paper tape through the guide roller 31 and moves one end of the insulating paper tape to the position of the first transmission belt 323, the end of the insulating paper tape is clamped between the first transmission belt 323 and the frame 1, then a signal is sent to the rotary driving assembly 41 through the controller, the rotary driving assembly 41 drives the first rotating shaft 321 to rotate after receiving the signal, the first rotating shaft 321 drives the belt pulley 322 to rotate, the belt pulley 322 drives the first transmission belt 323 to rotate, the insulating paper tape is pushed to move by friction between the first transmission belt 323 and the insulating paper tape, the insulating paper tape is pushed to the position of the laser cutter 22 to stop rotating, the controller sends the signal to the laser cutter 22, the insulating paper tape is cut after the laser cutter 22 receives the signal, the rotary driving assembly 41 is started again after the cutting is completed, after the rotary driving assembly 41 is started, the insulating paper tape is pushed to move for a specified distance, when the insulating paper tape moves to the guide block 112, the two sides of the insulating paper tape are tilted upwards under the guidance of the guide block 112, meanwhile, the controller sends a signal to the fan 113, the fan 113 blows out air flow, so that the two sides of the insulating paper tape are clung to the guide block 112, meanwhile, the middle position of the insulating paper tape is subjected to the downward pressure caused by the air flow, further, the cut insulating paper is separated from the insulating paper tape, and falls down from a gap between the guide frame and the frame 1 under the action of wind force, and the insulating paper tape continues to move under the guidance of the guide block 112 and the guide frame, so that the cutting and the material separation of the insulating paper are completed, and the insulating paper can be cut into a required shape through the laser cutter 22, so that the cutting flexibility and the cutting efficiency are greatly improved.

Referring to fig. 1, 4 and 5: the laser cutting device 2 further comprises a lifting assembly 23 and a resetting assembly 24; the lifting assembly 23 includes a fixing frame 231, a first elastic member 232, and a telescopic rod 233; the fixing frame 231 is installed on the frame 1; both ends of the first elastic member 232 are respectively connected with the fixing frame 231 and the mounting plate 21; the telescopic rod 233 is mounted on the fixing frame 231 and two ends of the telescopic rod are respectively connected with the fixing frame 231 and the mounting plate 21; the reset component 24 is arranged on the fixing frame 231 and is used for controlling the reset of the mounting plate 21; the frame 1 is also provided with a cutting control device 5, and the cutting control device 5 comprises a locking component 51 and a first control component 52; the locking assembly 51 is provided on the fixing frame 231 and is used for fixing the mounting plate 21; the first control assembly 52 is disposed on the fixing frame 231 and is used for controlling the opening and closing of the locking assembly 51.

The lifting assembly 23, the locking assembly 51 and the first control assembly 52 realize the function of controlling the lifting of the laser cutter 22, achieve the effect of starting the laser cutter 22 when the laser cutter 22 is lowered, and reduce the opening and closing time errors of the laser cutter 22. The operator passes the insulating paper tape through the guide roller 31 and moves one end of the insulating paper tape to the position of the first transmission belt 323, the end of the insulating paper tape is clamped between the first transmission belt 323 and the frame 1, then a signal is sent to the rotary driving assembly 41 through the controller, the rotary driving assembly 41 drives the first rotating shaft 321 to rotate after receiving the signal, the first rotating shaft 321 drives the belt pulley 322 to rotate, the belt pulley 322 drives the first transmission belt 323 to rotate, the insulating paper tape is pushed to move by friction force between the first transmission belt 323 and the insulating paper tape, the insulating paper tape is pushed to the position of the laser cutter 22 to stop rotating, the locking assembly 51 is controlled to be closed through the first control assembly 52, the movement restriction of the locking assembly 51 on the mounting plate 21 is released, then the mounting plate 21 moves downwards under the elastic force of the first elastic piece 232, then the controller sends a signal to the laser cutter 22, the laser cutter 22 cuts the insulating paper tape after receiving the signal, the rotary driving assembly 41 is started again after the cutting is completed, the rotary driving assembly 41 is started to push the insulating paper tape to move for a specified distance, when the insulating paper tape moves to the position of the guide block 112, the two sides of the insulating paper tape are tilted upwards under the guidance of the guide block 112, meanwhile, the controller sends the signal to the fan 113, the fan 113 blows out air flow, so that the two sides of the insulating paper tape are clung to the guide block 112, meanwhile, the middle position of the insulating paper tape is subjected to the downward pressure caused by the air flow blowing, the cut insulating paper is separated from the insulating paper tape, and falls from a gap between the guide frame and the frame 1 under the action of wind force, and the insulating paper tape continues to move under the guidance of the guide block 112 and the guide frame, and cutting and distributing of the insulating paper are completed; after cutting, the reset assembly 24 controls the reset of the mounting plate 21.

Referring to fig. 1, 4-6: the locking assembly 51 includes a first mounting seat 511, a second elastic member 512, and an arc-shaped locking block 513; the first mounting seat 511 is mounted on the fixing frame 231; two ends of the second elastic member 512 are respectively connected with the first mounting seat 511 and the arc locking block 513; the arc-shaped locking block 513 is slidably mounted on the first mounting seat 511, and the arc-shaped locking block 513 is in transmission fit with the first control component 52; the mounting plate 21 is provided with a locking groove 514 which is matched with the arc locking block 513.

The invention realizes the function of fixing the mounting plate 21 through the first mounting seat 511, the second elastic piece 512, the arc locking block 513 and the locking groove 514, achieves the effect of automatically fixing the mounting plate 21 when the mounting plate 21 is reset and simultaneously can rapidly release the fixing of the mounting plate 21. An operator sends a signal to the rotary driving assembly 41 through the controller, the rotary driving assembly 41 receives the signal and then drives the first rotating shaft 321 to rotate, the first rotating shaft 321 drives the belt pulley 322 to rotate, the belt pulley 322 drives the first driving belt 323 to rotate, the insulating paper tape is pushed to move through friction force between the first driving belt 323 and the insulating paper tape to be pushed to the position of the laser cutter 22 to stop rotating, then the first control assembly 52 controls the arc-shaped locking block 513 to move in a direction away from the locking groove 514, the arc-shaped locking block 513 is separated from the locking groove 514, the movement restriction of the locking assembly 51 on the mounting plate 21 is relieved, then the mounting plate 21 moves downwards under the elastic force of the first elastic piece 232, the controller sends a signal to the laser cutter 22, after the laser cutter 22 receives the signal, cutting the insulating paper tape, starting the rotary driving assembly 41 again after cutting is completed, pushing the insulating paper tape to move for a specified distance after the rotary driving assembly 41 is started, when the insulating paper tape moves to the guide block 112, the two sides of the insulating paper tape tilt upwards under the guide of the guide block 112, simultaneously the controller sends the signal to the fan 113, the fan 113 blows out air flow, so that the two sides of the insulating paper tape cling to the guide block 112, the middle position of the insulating paper tape is subjected to the downward pressure caused by the air flow blowing, the cut insulating paper is separated from the insulating paper tape, and falls down from a gap between the guide frame 1 under the action of wind force, and the insulating paper tape continues to move under the guide of the guide block 112 and the guide frame, so that cutting and material separation of the insulating paper are completed; after cutting, the reset assembly 24 is used for controlling the reset of the mounting plate 21, the mounting plate 21 extrudes the arc-shaped locking block 513 in the reset process, the arc-shaped locking block 513 is clamped into the first mounting seat 511 against the elastic force of the second elastic piece 512 until the arc-shaped locking block 513 is aligned with the locking groove 514, the arc-shaped locking block 513 is clamped into the locking groove 514 under the elastic force of the second elastic piece 512, and the mounting plate 21 is fixed again.

Referring to fig. 4-6: the first control assembly 52 includes a connection block 521, a connection frame 522, and a first linear drive 523; the connecting block 521 is connected with the arc locking block 513, and a chute 5211 is arranged on the connecting block 521; the connecting frame 522 is slidably mounted on the fixed plate 244, a first push rod 5221 is mounted at the bottom of the connecting frame 522, and the first push rod 5221 is slidably matched with the chute 5211; the first linear driver 523 is mounted on the fixed plate 244 and its driving end is in driving connection with the connection frame 522.

The present invention realizes a function of controlling the sliding of the arc-shaped locking block 513 through the connection block 521, the connection frame 522 and the first linear driver 523. The first linear actuator 523 is preferably a linear cylinder, and the first linear actuator 523 is electrically connected to the controller; when the insulating paper is moved to the position of the laser cutter 22, a signal is sent to the first linear driver 523 through the controller, the first linear driver 523 drives the connecting frame 522 to descend after receiving the signal, the connecting frame 522 drives the first push rod 5221 to move, the first push rod 5221 extrudes the chute 5211 of the connecting block 521 and further pushes the connecting block 521 to move, the arc-shaped locking block 513 is driven to move away from the locking groove 514 by overcoming the elastic force of the second elastic piece 512, the arc-shaped locking block 513 is separated from the locking groove 514, the movement restriction of the locking assembly 51 on the mounting plate 21 is relieved, then the mounting plate 21 moves downwards under the elastic force of the first elastic piece 232, the controller sends the signal to the laser cutter 22 again, the insulating paper tape is cut after the laser cutter 22 receives the signal, the rotary driving assembly 41 is started again after the cutting is completed, the rotary driving assembly 41 is started to push the insulating paper tape to move a specified distance, when the insulating paper tape moves to the position of the guide block 112, two sides of the insulating paper tape are lifted upwards under the guide of the guide block 112, simultaneously the controller sends the signal to the fan 113, and the two sides of the fan 113 are separated from the air flow, the air flow of the air flow is enabled to be blown out of the insulating paper tape under the guide frame 112, and the air flow is enabled to be separated from the air flow under the guide frame and the guide frame, and the air flow of the air is separated from the air flow of the air, and the air flow of the insulating tape is blown down from the guide frame under the guide frame and the air is continuously, and the air-separated from the air is cut under the air and the air-guide of the air is cut under the air-guide of the air and the air is cut.

Referring to fig. 2 and 7: the rotary driving assembly 41 includes a clutch plate 411, a first rotary driver 412, a support bracket 413, a first guide rod 414, a stopper 415, and a third elastic member 416; the clutch plate 411 is slidably sleeved on the driving end of the first rotary driver 412, and the axis of the clutch plate 411 is collinear with the axis of the first rotary shaft 321; the first rotary drive 412 is mounted on the frame 1; the support 413 is rotatably sleeved on the clutch plate 411; the first guide rod 414 is mounted on the frame 1 and is in sliding fit with the support 413; the limiting block 415 is arranged at the end part of the first guide rod 414; both ends of the third elastic piece 416 are respectively connected with the limiting block 415 and the supporting frame 413; the frame 1 is also provided with a transmission component 42, and two ends of the transmission component 42 are respectively connected with the connecting frame 522 and the supporting frame 413 in a transmission way.

The invention realizes the function of controlling the connection of the rotary driving component 41 and the first rotating shaft 321 through the clutch plate 411, the first rotary driver 412, the supporting frame 413 and the first guide rod 414, and achieves the purpose of automatically stopping the movement of the insulating paper when the laser cutter 22 descends, thereby avoiding the influence on the cutting precision of the laser cutter 22. The first rotary drive 412 is preferably a servo motor that is electrically connected to the controller; when the insulating paper is moved to the position of the laser cutter 22, a signal is sent to the first linear driver 523 by the controller, the first linear driver 523 drives the connecting frame 522 to descend after receiving the signal, the connecting frame 522 drives the first push rod 5221 to move, the first push rod 5221 presses the chute 5211 of the connecting block 521 to push the connecting block 521 to move, the arc-shaped locking block 513 is driven to move away from the locking groove 514 by overcoming the elastic force of the second elastic piece 512, the arc-shaped locking block 513 is separated from the locking groove 514, the movement restriction of the locking assembly 51 on the mounting plate 21 is released, then the mounting plate 21 moves downwards under the elastic force of the first elastic piece 232, simultaneously, link 522 overcomes the elasticity control support frame 413 of third elastic component 416 through drive assembly 42 and moves towards the direction of keeping away from first pivot 321, support frame 413 drives separation and reunion piece 411 synchronous motion for separation and reunion piece 411 separates with first pivot 321, and then breaks off the transmission connection between first rotary actuator 412 and the first pivot 321, stops the removal of insulating paper, then the controller sends the signal and gives laser cutter 22 again, and laser cutter 22 cuts the insulating paper tape after receiving the signal, and after the cutting is accomplished, starts rotary drive assembly 41 and fan 113 again, accomplishes the branch material to insulating paper.

Referring to fig. 4, 5 and 7: the transmission assembly 42 includes a connecting rod 421 and a second push rod 422; the connecting rod 421 is connected with the connecting frame 522; the second push rod 422 is slidably mounted on the frame 1 and connected with the connecting rod 421, an inclined plane is provided at the bottom of the second push rod 422, and the inclined plane of the second push rod 422 is slidably matched with the supporting frame 413.

The invention realizes the function of controlling the movement of the support 413 through the connecting rod 421 and the second push rod 422, and achieves the effect of automatically controlling the movement of the support 413 when the connecting frame 522 descends. When the insulating paper is moved to the position of the laser cutter 22, a signal is sent to the first linear driver 523 by the controller, the first linear driver 523 drives the connecting frame 522 to descend after receiving the signal, the connecting frame 522 drives the first push rod 5221 to move, the first push rod 5221 presses the chute 5211 of the connecting block 521 to push the connecting block 521 to move, the arc-shaped locking block 513 is driven to move away from the locking groove 514 by overcoming the elastic force of the second elastic piece 512, the arc-shaped locking block 513 is separated from the locking groove 514, the movement restriction of the locking assembly 51 on the mounting plate 21 is released, then the mounting plate 21 moves downwards under the elastic force of the first elastic piece 232, and simultaneously, the link 522 drives connecting rod 421 and second push rod 422 and moves down, the bottom inclined plane extrusion support frame 413 of second push rod 422 overcomes the elasticity control support frame 413 of third elastic component 416 and moves towards the direction of keeping away from first pivot 321, support frame 413 drives clutch plate 411 synchronous motion for clutch plate 411 separates with first pivot 321, and then disconnect the transmission connection between first rotary actuator 412 and the first pivot 321, stop the removal of insulating paper, then the controller sends the signal and gives laser cutter 22 again, cut the insulating paper tape after the laser cutter 22 received the signal, after the cutting is accomplished, start rotary drive subassembly 41 and fan 113 again, accomplish the branch material to the insulating paper.

Referring to fig. 2, 3 and 7: the feeding device 3 further comprises a guide assembly 33, wherein the guide assembly 33 comprises a second rotating shaft 331, a third rotating shaft 332, a first rotating gear 333, a second rotating gear 334, a transmission gear 335 and a guide wheel 336; the second rotating shaft 331 and the third rotating shaft 332 are rotatably installed on the frame 1; the first rotary gear 333 is sleeved on the first rotating shaft 321; the second rotating gear 334 and the transmission gear 335 are respectively sleeved on the second rotating shaft 331 and the third rotating shaft 332; the first rotating gear 333 and the second rotating gear 334 are both in transmission connection with the transmission gear 335; the guiding wheel 336 is sleeved on the second rotating shaft 331.

The invention realizes the function of stably pushing the insulating paper tape onto the material guiding frame 111 through the second rotating shaft 331, the third rotating shaft 332, the first rotating gear 333, the second rotating gear 334, the transmission gear 335 and the guide wheel 336. After the rotary driving assembly 41 is started, the first rotating shaft 321 and the belt pulley 322 rotate, the belt pulley 322 drives the first transmission belt 323 to rotate, the first transmission belt 323 pushes the insulating paper tape to move, meanwhile, the first rotating shaft 321 drives the first rotating gear 333 to rotate, the first rotating gear 333 drives the second rotating gear 334 to rotate through the transmission of the transmission gear 335, the second rotating gear 334 synchronously rotates with the first rotating gear 333 through the transmission of the transmission gear 335, and then drives the guide wheel 336 to synchronously rotate, when the insulating paper tape moves to the guide wheel 336, the insulating paper tape moves to the guide block 112 under the pushing of the guide wheel 336, moves to the guide frame 111 through the guiding of the guide block 112, and then is subjected to stable material distribution under the blowing of the fan 113.

Referring to fig. 4 and 5: the reset assembly 24 includes a second mount 241, a second linear drive 242, a connecting plate 243, and a fixing plate 244; the second mount 241 is mounted on the fixing plate 244; the second linear driver 242 is installed on the second installation seat 241, and the driving end of the second linear driver 242 is in transmission connection with the connecting plate 243; the fixing plate 244 is provided on the mounting plate 21, and the connection plate 243 is slidably fitted with the fixing plate 244.

The invention realizes the function of controlling the reset of the mounting plate 21 through the second mounting seat 241, the second linear driver 242, the connecting plate 243 and the fixing plate 244. The second linear actuator 242 is preferably a linear cylinder, and the second linear actuator 242 is electrically connected with the controller; after the cutting is completed, the controller sends a signal to the second linear driver 242, the second linear driver 242 receives the signal and then drives the connecting plate 243 to move upwards, the connecting plate 243 pushes the fixing plate 244 after being contacted with the fixing plate 244, and then the fixing plate 244 drives the mounting plate 21 to move, the mounting plate 21 is controlled to reset, the mounting plate 21 extrudes the arc locking block 513 in the resetting process, the arc locking block 513 is clamped into the first mounting seat 511 against the elastic force of the second elastic piece 512 until the arc locking block 513 is aligned with the locking groove 514, the arc locking block 513 is clamped into the locking groove 514 under the elastic force of the second elastic piece 512, and the mounting plate 21 is fixed again. Meanwhile, through the cooperation of the connecting plate 243 and the fixing plate 244, the mounting plate 21 can stably move to a designated height when moving downwards under the action of the elastic force of the first elastic member 232, and when the connecting plate 243 is in tight fit with the fixing plate 244, the first elastic member 232 still has a downward pretightening force on the mounting plate 21, so that excessive movement of the mounting plate 21 is avoided, and meanwhile, the situation that the laser cutter 22 moves back and forth under the action of the elastic force of the first elastic member 232 and is unbalanced is avoided.

Referring to fig. 4, 8 and 9: the laser cutting device 2 further comprises a first linear drive assembly 25 and a second linear drive assembly 26; the first linear driving assembly 25 includes a bracket 251, a first screw 252, a second rotary driver 253, and a bevel gear 254; the holder 251 is slidably mounted on the mounting plate 21, and the laser cutter 22 is mounted on the holder 251; the first screw 252 is rotatably installed on the bracket 251, and the first screw 252 is in threaded connection with the bracket 251; the second rotary driver 253 is mounted on the bracket 251; the two bevel gears 254 are arranged, the two bevel gears 254 are respectively sleeved on the driving end of the second rotary driver 253 and the first screw 252, and the two bevel gears 254 are in transmission connection; the second linear drive assembly 26 is provided on the mounting plate 21 and is used to control movement of the carriage 251.

The present invention accomplishes the function of controlling the movement of the laser cutter 22 by means of a first linear drive assembly 25 and a second linear drive assembly 26. The second rotary drive 253 and the second linear drive assembly 26 are electrically connected to the controller; upon activation of the laser cutter 22, the operator sends a signal via the controller to the second rotary drive 253 and the second linear drive assembly 26; the second rotary driver 253 receives signals and then drives the first screw rod 252 to rotate through the bevel gear 254, the first screw rod 252 drives the support 251 in threaded connection with the first screw rod 252 to move, the support 251 drives the laser cutter 22 to move, meanwhile, the second linear driving assembly 26 drives the support 251 to move, and further flexible movement of the laser cutter 22 is completed through cooperation of the first linear driving assembly 25 and the second linear driving assembly 26, and special-shaped cutting is performed.

Referring to fig. 4, 8 and 9: the second linear drive assembly 26 includes a second screw 261, a third rotary drive 262, a sleeve 263, a second drive belt 264, and a second guide rod 265; the second screw 261 is rotatably mounted on the mounting plate 21 and is screw-coupled with the bracket 251; the third rotary drive 262 is mounted on the mounting plate 21; the sleeve 263 is provided with two sleeves which are respectively sleeved on the driving ends of the second screw 261 and the third rotary driver 262; two ends of the second transmission belt 264 are respectively sleeved on the two sleeves 263; the second guide bar 265 is mounted on the mounting plate 21 and it is in sliding engagement with the bracket 251.

The present invention realizes a function of driving the movement of the holder 251 by the second screw 261, the third rotary driver 262, the sleeve 263, the second transmission belt 264, and the second guide rod 265. The third rotary drive 262 is preferably a servo motor that is electrically connected to the controller; when the operator activates the laser cutter 22, a signal is sent by the controller to the second rotary driver 253 and the third rotary driver 262; the second rotary driver 253 receives the signal and then drives the first screw rod 252 to rotate through the bevel gear 254, the first screw rod 252 drives the support 251 in threaded connection with the first screw rod 252 to move, the support 251 drives the laser cutter 22 to move, meanwhile, the third rotary driver 262 receives the signal and then drives the second screw rod 261 to rotate through the sleeve 263 and the second transmission belt 264, the second screw rod 261 drives the support 251 in threaded connection with the second screw rod 261 to move, the support 251 drives the laser cutter 22 to move, and further the flexible movement of the laser cutter 22 is completed through the cooperation of the first linear driving assembly 25 and the first linear driving assembly 25, and special-shaped cutting is performed.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims (5)

1. An integrated cutting device for insulating paper is characterized by comprising a frame (1), a laser cutting device (2), a feeding device (3) and an auxiliary control device (4);

a material distribution assembly (11) is arranged on the frame (1), and the material distribution assembly (11) comprises a material guide frame (111), a guide block (112) and a fan (113);

the material guide frame (111) is arranged on the frame (1), and a gap for the insulation paper to pass through is formed between the material guide frame (111) and the bottom of the frame (1);

the guide block (112) is arranged on the frame (1) and is connected with the guide frame (111);

the fan (113) is arranged on the guide frame (111) and is positioned above the guide block (112);

the laser cutting device (2) comprises a mounting plate (21) and a laser cutter (22), wherein the mounting plate (21) is arranged on the frame (1), and the laser cutter (22) is arranged on the mounting plate (21);

the feeding device (3) comprises a guide roller (31) and a pushing component (32);

the guide roller (31) is rotatably arranged on the frame (1);

the pushing component (32) comprises a first rotating shaft (321), a belt wheel (322) and a first driving belt (323);

the first rotating shafts (321) are provided with two rotating shafts and are rotatably arranged on the frame (1);

the pulleys (322) are provided with two pulleys which are respectively sleeved on the two first rotating shafts (321);

two ends of the first driving belt (323) are respectively sleeved on the two belt pulleys (322);

the auxiliary control device (4) comprises a rotary driving assembly (41), wherein the rotary driving assembly (41) is arranged on the frame (1) and is used for driving the first rotating shaft (321) to rotate;

the laser cutting device (2) further comprises a lifting component (23) and a resetting component (24);

the lifting assembly (23) comprises a fixed frame (231), a first elastic piece (232) and a telescopic rod (233);

the fixing frame (231) is arranged on the frame (1);

two ends of the first elastic piece (232) are respectively connected with the fixing frame (231) and the mounting plate (21);

the telescopic rod (233) is arranged on the fixed frame (231) and two ends of the telescopic rod are respectively connected with the fixed frame (231) and the mounting plate (21);

the reset component (24) is arranged on the fixed frame (231) and is used for controlling the reset of the mounting plate (21);

the machine frame (1) is also provided with a cutting control device (5), and the cutting control device (5) comprises a locking component (51) and a first control component (52);

the locking component (51) is arranged on the fixing frame (231) and is used for fixing the mounting plate (21);

the first control component (52) is arranged on the fixed frame (231) and is used for controlling the opening and closing of the locking component (51);

the locking assembly (51) comprises a first mounting seat (511), a second elastic piece (512) and an arc-shaped locking block (513);

the first mounting seat (511) is mounted on the fixing frame (231);

two ends of the second elastic piece (512) are respectively connected with the first mounting seat (511) and the arc-shaped locking block (513);

the arc-shaped locking block (513) is slidably mounted on the first mounting seat (511), and the arc-shaped locking block (513) is in transmission fit with the first control assembly (52);

a locking groove (514) matched with the arc locking block (513) is formed in the mounting plate (21);

the first control assembly (52) comprises a connection block (521), a connection frame (522) and a first linear drive (523);

the connecting block (521) is connected with the arc-shaped locking block (513), and a chute (5211) is formed in the connecting block (521);

the connecting frame (522) is slidably mounted on the fixed plate (244), a first push rod (5221) is mounted at the bottom of the connecting frame (522), and the first push rod (5221) is slidably matched with the chute (5211);

the first linear driver (523) is arranged on the fixed plate (244) and the driving end of the first linear driver is in transmission connection with the connecting frame (522);

the rotary driving assembly (41) comprises a clutch plate (411), a first rotary driver (412), a supporting frame (413), a first guide rod (414), a limiting block (415) and a third elastic piece (416);

the clutch plate (411) is slidably sleeved on the driving end of the first rotary driver (412), and the axis of the clutch plate (411) is collinear with the axis of the first rotary shaft (321);

a first rotary drive (412) is mounted on the frame (1);

the supporting frame (413) is rotationally sleeved on the clutch plate (411);

the first guide rod (414) is arranged on the frame (1) and is in sliding fit with the support frame (413);

the limiting block (415) is arranged at the end part of the first guide rod (414);

both ends of the third elastic piece (416) are respectively connected with the limiting block (415) and the supporting frame (413);

the frame (1) is also provided with a transmission component (42), and two ends of the transmission component (42) are respectively connected with the connecting frame (522) and the supporting frame (413) in a transmission way;

the transmission assembly (42) comprises a connecting rod (421) and a second push rod (422);

the connecting rod (421) is connected with the connecting frame (522);

the second push rod (422) is slidably mounted on the frame (1) and is connected with the connecting rod (421), an inclined plane is formed in the bottom of the second push rod (422), and the inclined plane of the second push rod (422) is slidably matched with the supporting frame (413).

2. The integrated cutting device for insulation paper according to claim 1, wherein the feeding device (3) further comprises a guide assembly (33), and the guide assembly (33) comprises a second rotating shaft (331), a third rotating shaft (332), a first rotating gear (333), a second rotating gear (334), a transmission gear (335) and a guide wheel (336);

the second rotating shaft (331) and the third rotating shaft (332) are rotatably arranged on the frame (1);

the first rotary gear (333) is sleeved on the first rotary shaft (321);

the second rotating gear (334) and the transmission gear (335) are respectively sleeved on the second rotating shaft (331) and the third rotating shaft (332);

the first rotary gear (333) and the second rotary gear (334) are in transmission connection with a transmission gear (335);

the guide wheel (336) is sleeved on the second rotating shaft (331).

3. The integrated cutting device for insulation paper according to claim 2, wherein the reset assembly (24) comprises a second mounting base (241), a second linear actuator (242), a connecting plate (243) and a fixing plate (244);

the second mounting seat (241) is mounted on the fixed plate (244);

the second linear driver (242) is arranged on the second mounting seat (241), and the driving end of the second linear driver (242) is in transmission connection with the connecting plate (243);

the fixed plate (244) is arranged on the mounting plate (21), and the connecting plate (243) is in sliding fit with the fixed plate (244).

4. An integrated cutting device for insulating paper according to claim 3, characterized in that the laser cutting device (2) further comprises a first linear drive assembly (25) and a second linear drive assembly (26);

the first linear driving assembly (25) comprises a bracket (251), a first screw (252), a second rotary driver (253) and a bevel gear (254);

the bracket (251) is slidably arranged on the mounting plate (21), and the laser cutter (22) is arranged on the bracket (251);

the first screw rod (252) is rotatably arranged on the bracket (251), and the first screw rod (252) is in threaded connection with the bracket (251);

a second rotary drive (253) is mounted on the bracket (251);

the two bevel gears (254) are arranged, the two bevel gears (254) are respectively sleeved on the driving end of the second rotary driver (253) and the first screw (252), and the two bevel gears (254) are in transmission connection;

a second linear drive assembly (26) is provided on the mounting plate (21) and is used to control movement of the carriage (251).

5. The integrated cutting device for insulation paper according to claim 4, wherein the second linear driving assembly (26) comprises a second screw (261), a third rotary driver (262), a sleeve (263), a second transmission belt (264) and a second guide bar (265);

the second screw rod (261) is rotatably arranged on the mounting plate (21) and is in threaded connection with the bracket (251);

a third rotary drive (262) is mounted on the mounting plate (21);

the sleeves (263) are provided with two sleeves which are respectively sleeved on the driving ends of the second screw (261) and the third rotary driver (262);

two ends of the second transmission belt (264) are respectively sleeved on the two sleeves (263);

the second guide rod (265) is mounted on the mounting plate (21) and is in sliding fit with the bracket (251).